利用 RFB 和卵黄@双壳结构光催化剂促进 PEF 生成经济型纳米气泡,用于降解制药污染物

IF 10.4 1区 工程技术 Q1 ENGINEERING, CHEMICAL
Saeed Shirazian, Sameer Alshehri, Mohammad A. Khasawneh, Masoud Habibi Zare, Arjomand Mehrabani-Zeinabad
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引用次数: 0

摘要

在这项研究中,纳米气泡的生成是利用基于相对阻塞流的涡旋泵结构(不使用文丘里管和孔口,因为产生纳米气泡需要消耗大量能量),这使得该工艺具有经济性和商业性。此外,采用先进的合成纳米反应器 Yolk@Shell 结构,通过在阳极电极上镀膜形成光阳极,可在可见光范围内工作,也是这项研究工作的亮点。对水动力反应器之外的高级光电-电芬顿氧化方法的协同效应的深入研究表明,智能地选择这三种高级氧化方法一起使用,提高了彼此的性能,解决了它们的负面问题,包括过氧化氢、二价铁离子的使用,以及电芬顿方法产生的污泥的去除。空心圆柱电极的使用使得具有 Yolk@Shell 结构的先进合成纳米反应器能够充分负载。研究微观(具有 Yolk@Shell 结构的先进合成纳米反应器)和宏观(基于流动相对阻塞的漩涡结构)过程对医药污染物降解的影响是这项工作的重点,既可以单独进行,也可以结合进行。最后,研究了每个过程和整个系统的能耗,结果表明,根据几乎完全去除污染物萘普生并将其化学需氧量降低 90% 的能耗要求,该组合系统的运行成本为 6530 里亚尔/升.小时(或 0.15525 美元/升.小时),这表明该系统是一种具有工业化能力的经济方法。在最佳操作条件下,引入系统的降解指数(DI)为 3.38,这表明基于高级氧化方法组合开发的系统是本研究工作中使用的一种合适方法,因为它对环境友好、无副污水产生、高效和高降解性能、能够回收纳米催化剂,因而具有经济效益。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Economic nanobubbles by RFB and promoted PEF with yolk@double-shell structural photocatalyst for degradation of pharmaceutical pollutants

Economic nanobubbles by RFB and promoted PEF with yolk@double-shell structural photocatalyst for degradation of pharmaceutical pollutants

Economic nanobubbles by RFB and promoted PEF with yolk@double-shell structural photocatalyst for degradation of pharmaceutical pollutants
In this research, the generation of nanobubbles was carried out using a structure of vortex pump based on the relative blockage of flow (without the use of venturi and orifices, which consume a lot of energy to generate nanobubbles), which has made this process economical and commercial. In addition, the use of advanced synthesized nanoreactors with the Yolk@Shell structure, which forms a photoanode by coating the anode electrode and can operate in the visible light range, has highlighted this research work. An in-depth study of the synergistic effect of advanced photoelectrofenton oxidation methods in addition to the hydrodynamic reactor has shown that the intelligent selection of these three types of advanced oxidation methods together has improved the performance of each other and solved their negative aspects, including the use of hydrogen peroxide, divalent iron ion, and the removal of sludge generated by the electrofenton method. The use of hollow cylindrical electrodes allowed adequate loading of the advanced synthesized nanoreactors with Yolk@Shell structure. The investigation of the effects of micro (advanced synthesized nanoreactors with Yolk@Shell structure) and macro (vortex structure based on relative blockage of the flow) processes on the degradation of pharmaceutical pollutants, both separately and in combination, is a focus of this work. At the end, the energy consumption for each of these processes and this system in general was studied, which showed that the operating cost of this combined system according to the energy consumption requirements for the almost complete removal of the pollutant naproxen and the 90% reduction of its chemical oxygen demand is 6530 Rials/L.h (or 0.15525 USD/L.h), which presents this system as an economical method with industrialization capability. The degradability index (DI) of the introduced system under optimal operating conditions was 3.38, which shows that the development of the system based on the combination of advanced oxidation methods is a suitable method used in this research work due to its environmental friendliness, absence of side effluent production, efficiency and high degradation performance, ability to recover the nanocatalyst and consequently economic efficiency.
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来源期刊
npj Clean Water
npj Clean Water Environmental Science-Water Science and Technology
CiteScore
15.30
自引率
2.60%
发文量
61
审稿时长
5 weeks
期刊介绍: npj Clean Water publishes high-quality papers that report cutting-edge science, technology, applications, policies, and societal issues contributing to a more sustainable supply of clean water. The journal's publications may also support and accelerate the achievement of Sustainable Development Goal 6, which focuses on clean water and sanitation.
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